You can divide a polynomial just like numbers and dividing a polynomial will give an expression as quotient and remainder. The polynomial you are going to divide must have more terms than the divisor, else the division will not be fruitful.
In this article, you will learn about polynomial long division and synthetic division techniques.
Polynomial Long Division
To divide a polynomial, you need to follow some steps.
Example #1
Step 1: Keep the terms of the dividend and divisor in standard form, that is, in the descending powers of the variable.
x + 2 )\overline {x^2 + 7x + 10}
Step 2: Take first term of the dividend and divide with the divisor, you will get the first term of the quotient. Do it as if you are dividing two numbers.
x\\ x + 2 )\overline {x^2 + 7x + 10}
Step 3: Multiply every term of the divisor with the first term of the quotient.
x\\ x + 2 )\overline{x^2 + 7x + 10}\\ x^2 + 2x
Step 4: Subtract the result of multiplication in step 3 with dividend.
x\\ x + 2 ) \overline{x^2 + 7x + 10} \\ x^2 + 2x\\ \hspace{1.5 cm}\overline{5x + 10}
Step 5: Bring down the new term from the dividend and repeat the step 1 to 5 until you get a remainder 0 or some other value.
x + 5\\ x + 2 ) \overline{x^2 + 7x + 10} \\ x^2 + 2x\\ \hspace{2 cm}\overline{5x + 10} \\ \hspace{2 cm}5x + 10\\ \hspace{3 cm}\overline{0}\\
The solution to the above polynomial is
Example #2:
Divide \hspace{3 mm} x - 1 ) \overline{x^3 + 3x^2 + 3x -4}
Solution:
\begin{aligned} &\hspace{ 1 cm}x^2 + 4x + 7 \\ &x - 1 ) \overline{x^3 + 3x^2 + 3x - 4} \\ &\hspace{ 1 cm}x^3 - x^2 \\ &\hspace{ 1 cm}\overline{4x^2 + 3x } \\ &\hspace{ 1 cm}4x^2 - 4x\\ &\hspace{ 2 cm}\overline{7x - 4} \\ &\hspace{ 2 cm}7x - 7\\ &\hspace{ 2.7 cm}\overline{11}\\ \end{aligned}
This time the solution is a trinomial
How do you write answer when the polynomial long division gives you a remainder. As in above case, you can write answers as
\frac{x^3 + 3x^2 + 3x -4}{x - 1} = x^2 + 4x + 7 + \frac{13}{x - 1}
The divisor still tries to divide the remainder so you represent it as a term.
Division Algorithm
We can rewrite the whole dividend , divisor , quotient and remainder as an expression by itself.
x^3 + 3x^2 + 3x -4 = (x - 1)(x^2 + 4x + 7) +11
What we are doing is a check to see whether multiplying and adding the remainder back will give us the original polynomial function
Let say that the dividend is
The degree of divisor
The degree of remainder
Synthetic Division
Another way to divide polynomial is much faster and efficient provide that the divisor is in the form
We can take our previous example to perform the synthetic division.
Example #3
Divide using synthetic division method:
Solution:
Step 1: Write the constant $c$ from the divisor and all the coefficients from the dividend.
Divisor c value | 1st term coefficient | 2nd term coefficient | 3rd term coefficient | 4th term coefficient |
1 | 1 | 3 | 3 | 4 |
Step 3: Write the 1st term coefficient in third column.
Divisor c value | 1st term coefficient | 2nd term coefficient | 3rd term coefficient | 4th term coefficient |
1 | 3 | 3 | 4 | |
1 |
Step 4: Multiply 1st term coefficient with c and write the result in second column and second row and add the entries of second column. Write the result in second column, third row.
Divisor c value | 1st term coefficient | 2nd term coefficient | 3rd term coefficient | 4th term coefficient |
1 | 3 | 3 | 4 | |
1 | ||||
1 | 4 |
Step 5: Repeat the process from step 1 to 4.
Divisor c value | 1st term coefficient | 2nd term coefficient | 3rd term coefficient | 4th term coefficient |
1 | 3 | 3 | 4 | |
1 | 4 | 7 | ||
1 | 4 | 7 | 11 |
The numbers in the last row is coefficients of quotient
q(x) = x^2 + 4x + 7 + \frac{11}{x -1}
Remainder Theorem
Let us remember the division algorithm, which is
f(x) = d(x) . q(x) + r
Suppose we are dividing
f(x) = (x - c) q(x) + r
Given the above equation, suppose
f(c) = (c - c)q(c) + r\\ = 0 \cdot q(c) + r\\ f(x) = r
Therefore, remainder theorem states that you can use
Example #4
Find the remainder for
Solution:
Using reminder theorem,
f(1) = 1^3 + 4(1)^2 + 3(1) + 2 = 1 + 4 + 3 + 2 = 10
Therefore, remainder is
Verify the results:
1 : 1 4 3 2
1 5 8
1 5 8 10
Using the synthetic division we find that the remainder is 10.
Factor Theorem
The factor theorem is derived from division algorithm. Suppose the
Let us replace
Suppose if the
Let us say that
f(x) = (x - c) q(x) , if \hspace{2 mm} x = c\\ f(c) = (c - c) q(c) = 0 \cdot q(c) = 0
If
Summary
In this article, you learned about polynomial long division, synthetic division, division algorithm and two theorem that are derived from the division algorithms – remainder theorem and factor theorem.